{
 "cells": [
  {
   "cell_type": "code",
   "execution_count": 1,
   "metadata": {
    "collapsed": true,
    "hide_input": false
   },
   "outputs": [],
   "source": [
    "from preamble import *\n",
    "%matplotlib inline"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Algorithm Chains and Pipelines"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 2,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "from sklearn.svm import SVC\n",
    "from sklearn.datasets import load_breast_cancer\n",
    "from sklearn.model_selection import train_test_split\n",
    "from sklearn.preprocessing import MinMaxScaler\n",
    "\n",
    "# load and split the data\n",
    "cancer = load_breast_cancer()\n",
    "X_train, X_test, y_train, y_test = train_test_split(\n",
    "    cancer.data, cancer.target, random_state=0)\n",
    "\n",
    "# compute minimum and maximum on the training data\n",
    "scaler = MinMaxScaler().fit(X_train)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 3,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Test score: 0.95\n"
     ]
    }
   ],
   "source": [
    "# rescale the training data\n",
    "X_train_scaled = scaler.transform(X_train)\n",
    "\n",
    "svm = SVC()\n",
    "# learn an SVM on the scaled training data\n",
    "svm.fit(X_train_scaled, y_train)\n",
    "# scale the test data and score the scaled data\n",
    "X_test_scaled = scaler.transform(X_test)\n",
    "print(\"Test score: {:.2f}\".format(svm.score(X_test_scaled, y_test)))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Parameter Selection with Preprocessing "
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 4,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Best cross-validation accuracy: 0.98\n",
      "Best parameters:  {'C': 1, 'gamma': 1}\n",
      "Test set accuracy: 0.97\n"
     ]
    }
   ],
   "source": [
    "from sklearn.model_selection import GridSearchCV\n",
    "# for illustration purposes only, don't use this code!\n",
    "param_grid = {'C': [0.001, 0.01, 0.1, 1, 10, 100],\n",
    "              'gamma': [0.001, 0.01, 0.1, 1, 10, 100]}\n",
    "grid = GridSearchCV(SVC(), param_grid=param_grid, cv=5)\n",
    "grid.fit(X_train_scaled, y_train)\n",
    "print(\"Best cross-validation accuracy: {:.2f}\".format(grid.best_score_))\n",
    "print(\"Best parameters: \", grid.best_params_)\n",
    "print(\"Test set accuracy: {:.2f}\".format(grid.score(X_test_scaled, y_test)))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 5,
   "metadata": {
    "hide_input": false
   },
   "outputs": [
    {
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wIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAK\nNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCAz\nMTggNDAxIDQ2MCA4MzggNjM2Cjk1MCA3ODAgMjc1IDM5MCAzOTAgNTAwIDgzOCAzMTggMzYxIDMx\nOCAzMzcgNjM2IDYzNiA2MzYgNjM2IDYzNiA2MzYgNjM2IDYzNgo2MzYgNjM2IDMzNyAzMzcgODM4\nIDgzOCA4MzggNTMxIDEwMDAgNjg0IDY4NiA2OTggNzcwIDYzMiA1NzUgNzc1IDc1MiAyOTUKMjk1\nIDY1NiA1NTcgODYzIDc0OCA3ODcgNjAzIDc4NyA2OTUgNjM1IDYxMSA3MzIgNjg0IDk4OSA2ODUg\nNjExIDY4NSAzOTAgMzM3CjM5MCA4MzggNTAwIDUwMCA2MTMgNjM1IDU1MCA2MzUgNjE1IDM1MiA2\nMzUgNjM0IDI3OCAyNzggNTc5IDI3OCA5NzQgNjM0IDYxMgo2MzUgNjM1IDQxMSA1MjEgMzkyIDYz\nNCA1OTIgODE4IDU5MiA1OTIgNTI1IDYzNiAzMzcgNjM2IDgzOCA2MDAgNjM2IDYwMCAzMTgKMzUy\nIDUxOCAxMDAwIDUwMCA1MDAgNTAwIDEzNDIgNjM1IDQwMCAxMDcwIDYwMCA2ODUgNjAwIDYwMCAz\nMTggMzE4IDUxOCA1MTgKNTkwIDUwMCAxMDAwIDUwMCAxMDAwIDUyMSA0MDAgMTAyMyA2MDAgNTI1\nIDYxMSAzMTggNDAxIDYzNiA2MzYgNjM2IDYzNiAzMzcKNTAwIDUwMCAxMDAwIDQ3MSA2MTIgODM4\nIDM2MSAxMDAwIDUwMCA1MDAgODM4IDQwMSA0MDEgNTAwIDYzNiA2MzYgMzE4IDUwMAo0MDEgNDcx\nIDYxMiA5NjkgOTY5IDk2OSA1MzEgNjg0IDY4NCA2ODQgNjg0IDY4NCA2ODQgOTc0IDY5OCA2MzIg\nNjMyIDYzMiA2MzIKMjk1IDI5NSAyOTUgMjk1IDc3NSA3NDggNzg3IDc4NyA3ODcgNzg3IDc4NyA4\nMzggNzg3IDczMiA3MzIgNzMyIDczMiA2MTEgNjA1CjYzMCA2MTMgNjEzIDYxMyA2MTMgNjEzIDYx\nMyA5ODIgNTUwIDYxNSA2MTUgNjE1IDYxNSAyNzggMjc4IDI3OCAyNzggNjEyIDYzNAo2MTIgNjEy\nIDYxMiA2MTIgNjEyIDgzOCA2MTIgNjM0IDYzNCA2MzQgNjM0IDU5MiA2MzUgNTkyIF0KZW5kb2Jq\nCjE1IDAgb2JqCjw8IC9zcGFjZSAxNiAwIFIgL2EgMTcgMCBSIC9jIDE4IDAgUiAvZCAxOSAwIFIg\nL2UgMjAgMCBSIC9mIDIxIDAgUgovZyAyMiAwIFIgL0MgMjMgMCBSIC9pIDI0IDAgUiAvbCAyNSAw\nIFIgL24gMjYgMCBSIC9vIDI3IDAgUiAvcCAyOCAwIFIKL3IgMjkgMCBSIC9zIDMwIDAgUiAvdCAz\nMSAwIFIgL1MgMzIgMCBSIC92IDMzIDAgUiAvViAzNCAwIFIgL1QgMzUgMCBSID4+CmVuZG9iagoz\nIDAgb2JqCjw8IC9GMSAxNCAwIFIgPj4KZW5kb2JqCjQgMCBvYmoKPDwgL0ExIDw8IC9UeXBlIC9F\neHRHU3RhdGUgL0NBIDAgL2NhIDEgPj4KL0EyIDw8IC9UeXBlIC9FeHRHU3RhdGUgL0NBIDEgL2Nh\nIDEgPj4gPj4KZW5kb2JqCjM2IDAgb2JqCjw8IC9UeXBlIC9QYXR0ZXJuIC9QYXR0ZXJuVHlwZSAx\nIC9QYWludFR5cGUgMSAvVGlsaW5nVHlwZSAxCi9CQm94IFsgMCAwIDcyIDcyIF0gL1hTdGVwIDcy\nIC9ZU3RlcCA3MgovUmVzb3VyY2VzIDw8IC9Qcm9jc2V0cyBbIC9QREYgL1RleHQgL0ltYWdlQiAv\nSW1hZ2VDIC9JbWFnZUkgXSA+PgovTWF0cml4IFsgMSAwIDAgMSAwIDU4NC4xMzI1OTEyODE3IF0g\nL0xlbmd0aCAxNTIgL0ZpbHRlciAvRmxhdGVEZWNvZGUgPj4Kc3RyZWFtCnicJY8xDsMwDAN3vYIf\nEOA4iuKsXbrnD22XeMnS75dUIcKAKetENzTW+bQFqvtT971L9wtv+l8zXxPUNB5LG7joNFDTotPp\ncnqAojNwpIxlgJq2BY5WBt92GtkwQkZC0EzsYmrztP/uyxKuJjspGge9hjmZohHthSd7E43LvQJw\ne4jHfF4ZFTDEZHyvf+gTq7D2sB8lszEcCmVuZHN0cmVhbQplbmRvYmoKMzcgMCBvYmoKPDwgL1R5\ncGUgL1BhdHRlcm4gL1BhdHRlcm5UeXBlIDEgL1BhaW50VHlwZSAxIC9UaWxpbmdUeXBlIDEKL0JC\nb3ggWyAwIDAgNzIgNzIgXSAvWFN0ZXAgNzIgL1lTdGVwIDcyCi9SZXNvdXJjZXMgPDwgL1Byb2Nz\nZXRzIFsgL1BERiAvVGV4dCAvSW1hZ2VCIC9JbWFnZUMgL0ltYWdlSSBdID4+Ci9NYXRyaXggWyAx\nIDAgMCAxIDAgNTg0LjEzMjU5MTI4MTcgXSAvTGVuZ3RoIDE2MiAvRmlsdGVyIC9GbGF0ZURlY29k\nZSA+PgpzdHJlYW0KeJx1jzEOwzAMA3e9gh9wITuK4qxdsvcPbZd4ydLvl3TnwoQBU9aJcjjP4zC/\nrV739K3Hgv+P6z0btiZdT7ys4mNWlgQ1jFf1jpOOgxoWjU6T0wIUnY49ZdQOatga2H0a/NtopKOH\njISgmdjE1ORhv9mnJYqKrKRobCyzmZ0pGtFl4sleRePwMgNweojHfGVmVMAQk/HL3ENLLMLa3b5H\nkDfECmVuZHN0cmVhbQplbmRvYmoKNSAwIG9iago8PCAvSDEgMzYgMCBSIC9IMiAzNyAwIFIgPj4K\nZW5kb2JqCjYgMCBvYmoKPDwgPj4KZW5kb2JqCjcgMCBvYmoKPDwgPj4KZW5kb2JqCjIgMCBvYmoK\nPDwgL1R5cGUgL1BhZ2VzIC9LaWRzIFsgMTAgMCBSIF0gL0NvdW50IDEgPj4KZW5kb2JqCjM4IDAg\nb2JqCjw8IC9DcmVhdG9yIChtYXRwbG90bGliIDIuMC4yLCBodHRwOi8vbWF0cGxvdGxpYi5vcmcp\nCi9Qcm9kdWNlciAobWF0cGxvdGxpYiBwZGYgYmFja2VuZCkgL0NyZWF0aW9uRGF0ZSAoRDoyMDE3\nMDYwMzE2MTc0OCswMicwMCcpCj4+CmVuZG9iagp4cmVmCjAgMzkKMDAwMDAwMDAwMCA2NTUzNSBm\nIAowMDAwMDAwMDE2IDAwMDAwIG4gCjAwMDAwMDk2MjUgMDAwMDAgbiAKMDAwMDAwODU0OSAwMDAw\nMCBuIAowMDAwMDA4NTgxIDAwMDAwIG4gCjAwMDAwMDk1NDAgMDAwMDAgbiAKMDAwMDAwOTU4MyAw\nMDAwMCBuIAowMDAwMDA5NjA0IDAwMDAwIG4gCjAwMDAwMDAwNjUgMDAwMDAgbiAKMDAwMDAwMDM5\nOCAwMDAwMCBuIAowMDAwMDAwMjA4IDAwMDAwIG4gCjAwMDAwMDE1ODYgMDAwMDAgbiAKMDAwMDAw\nNzI3MCAwMDAwMCBuIAowMDAwMDA3MDcwIDAwMDAwIG4gCjAwMDAwMDY2NzUgMDAwMDAgbiAKMDAw\nMDAwODMyMyAwMDAwMCBuIAowMDAwMDAxNjA3IDAwMDAwIG4gCjAwMDAwMDE2OTYgMDAwMDAgbiAK\nMDAwMDAwMjA3MyAwMDAwMCBuIAowMDAwMDAyMzc2IDAwMDAwIG4gCjAwMDAwMDI2NzYgMDAwMDAg\nbiAKMDAwMDAwMjk5NCAwMDAwMCBuIAowMDAwMDAzMjAwIDAwMDAwIG4gCjAwMDAwMDM2MTEgMDAw\nMDAgbiAKMDAwMDAwMzkxNiAwMDAwMCBuIAowMDAwMDA0MDU2IDAwMDAwIG4gCjAwMDAwMDQxNzMg\nMDAwMDAgbiAKMDAwMDAwNDQwNyAwMDAwMCBuIAowMDAwMDA0Njk0IDAwMDAwIG4gCjAwMDAwMDUw\nMDMgMDAwMDAgbiAKMDAwMDAwNTIzMyAwMDAwMCBuIAowMDAwMDA1NjM4IDAwMDAwIG4gCjAwMDAw\nMDU4NDIgMDAwMDAgbiAKMDAwMDAwNjI1MyAwMDAwMCBuIAowMDAwMDA2Mzk3IDAwMDAwIG4gCjAw\nMDAwMDY1MzkgMDAwMDAgbiAKMDAwMDAwODY4MCAwMDAwMCBuIAowMDAwMDA5MTA1IDAwMDAwIG4g\nCjAwMDAwMDk2ODUgMDAwMDAgbiAKdHJhaWxlcgo8PCAvU2l6ZSAzOSAvUm9vdCAxIDAgUiAvSW5m\nbyAzOCAwIFIgPj4Kc3RhcnR4cmVmCjk4MzMKJSVFT0YK\n",
      "image/png": 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sWTNJ0hlnnKFzzz1XK1as0B133FGh/sMPP9SePXskqfQzpRYvXlyhz+985zs1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\ncayK13WGolP2VIv11GT9+yu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00UeTzl+1apVL8u7du3txcXHp9P79+7sknzBhQrXr2LNn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\nAgAAAIAA/H+q+PotkV0oyQAAAABJRU5ErkJggg==\n",
      "text/plain": [
       "<Figure size 1080x720 with 2 Axes>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "mglearn.plots.plot_improper_processing()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Building Pipelines"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 6,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "from sklearn.pipeline import Pipeline\n",
    "pipe = Pipeline([(\"scaler\", MinMaxScaler()), (\"svm\", SVC())])"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 7,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "Pipeline(memory=None,\n",
       "     steps=[('scaler', MinMaxScaler(copy=True, feature_range=(0, 1))), ('svm', SVC(C=1.0, cache_size=200, class_weight=None, coef0=0.0,\n",
       "  decision_function_shape='ovr', degree=3, gamma='auto_deprecated',\n",
       "  kernel='rbf', max_iter=-1, probability=False, random_state=None,\n",
       "  shrinking=True, tol=0.001, verbose=False))])"
      ]
     },
     "execution_count": 7,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "pipe.fit(X_train, y_train)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 8,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Test score: 0.95\n"
     ]
    }
   ],
   "source": [
    "print(\"Test score: {:.2f}\".format(pipe.score(X_test, y_test)))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Using Pipelines in Grid-searches"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 9,
   "metadata": {
    "collapsed": true,
    "scrolled": true
   },
   "outputs": [],
   "source": [
    "param_grid = {'svm__C': [0.001, 0.01, 0.1, 1, 10, 100],\n",
    "              'svm__gamma': [0.001, 0.01, 0.1, 1, 10, 100]}"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 10,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Best cross-validation accuracy: 0.98\n",
      "Test set score: 0.97\n",
      "Best parameters: {'svm__C': 1, 'svm__gamma': 1}\n"
     ]
    }
   ],
   "source": [
    "grid = GridSearchCV(pipe, param_grid=param_grid, cv=5)\n",
    "grid.fit(X_train, y_train)\n",
    "print(\"Best cross-validation accuracy: {:.2f}\".format(grid.best_score_))\n",
    "print(\"Test set score: {:.2f}\".format(grid.score(X_test, y_test)))\n",
    "print(\"Best parameters: {}\".format(grid.best_params_))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 11,
   "metadata": {
    "hide_input": false
   },
   "outputs": [
    {
     "data": {
      "application/pdf": 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gNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2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\nT0YK\n",
      "image/png": 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WokWL9Nxzz8nd1bFjR4orAACQECzWKUoAqs/MnL+r+DMzuTt32gAAALWGa64A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\nkiRJkpSBxZUkSZIkZfD/AUl77PYyGMKxAAAAAElFTkSuQmCC\n",
      "text/plain": [
       "<Figure size 1080x576 with 2 Axes>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "mglearn.plots.plot_proper_processing()"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 12,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "rnd = np.random.RandomState(seed=0)\n",
    "X = rnd.normal(size=(100, 10000))\n",
    "y = rnd.normal(size=(100,))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 13,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "X_selected.shape: (100, 500)\n"
     ]
    }
   ],
   "source": [
    "from sklearn.feature_selection import SelectPercentile, f_regression\n",
    "\n",
    "select = SelectPercentile(score_func=f_regression, percentile=5).fit(X, y)\n",
    "X_selected = select.transform(X)\n",
    "print(\"X_selected.shape: {}\".format(X_selected.shape))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 14,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Cross-validation accuracy (cv only on ridge): 0.91\n"
     ]
    }
   ],
   "source": [
    "from sklearn.model_selection import cross_val_score\n",
    "from sklearn.linear_model import Ridge\n",
    "print(\"Cross-validation accuracy (cv only on ridge): {:.2f}\".format(\n",
    "      np.mean(cross_val_score(Ridge(), X_selected, y, cv=5))))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 15,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Cross-validation accuracy (pipeline): -0.25\n"
     ]
    }
   ],
   "source": [
    "pipe = Pipeline([(\"select\", SelectPercentile(score_func=f_regression,\n",
    "                                             percentile=5)),\n",
    "                 (\"ridge\", Ridge())])\n",
    "print(\"Cross-validation accuracy (pipeline): {:.2f}\".format(\n",
    "      np.mean(cross_val_score(pipe, X, y, cv=5))))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### The General Pipeline Interface"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 16,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "def fit(self, X, y):\n",
    "    X_transformed = X\n",
    "    for name, estimator in self.steps[:-1]:\n",
    "        # iterate over all but the final step\n",
    "        # fit and transform the data\n",
    "        X_transformed = estimator.fit_transform(X_transformed, y)\n",
    "    # fit the last step\n",
    "    self.steps[-1][1].fit(X_transformed, y)\n",
    "    return self"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 17,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "def predict(self, X):\n",
    "    X_transformed = X\n",
    "    for step in self.steps[:-1]:\n",
    "        # iterate over all but the final step\n",
    "        # transform the data\n",
    "        X_transformed = step[1].transform(X_transformed)\n",
    "    # predict using the last step\n",
    "    return self.steps[-1][1].predict(X_transformed)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "![pipeline_illustration](images/pipeline.png)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Convenient Pipeline creation with ``make_pipeline``"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 18,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "from sklearn.pipeline import make_pipeline\n",
    "# standard syntax\n",
    "pipe_long = Pipeline([(\"scaler\", MinMaxScaler()), (\"svm\", SVC(C=100))])\n",
    "# abbreviated syntax\n",
    "pipe_short = make_pipeline(MinMaxScaler(), SVC(C=100))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 19,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Pipeline steps:\n",
      "[('minmaxscaler', MinMaxScaler(copy=True, feature_range=(0, 1))), ('svc', SVC(C=100, cache_size=200, class_weight=None, coef0=0.0,\n",
      "  decision_function_shape='ovr', degree=3, gamma='auto_deprecated',\n",
      "  kernel='rbf', max_iter=-1, probability=False, random_state=None,\n",
      "  shrinking=True, tol=0.001, verbose=False))]\n"
     ]
    }
   ],
   "source": [
    "print(\"Pipeline steps:\\n{}\".format(pipe_short.steps))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 20,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Pipeline steps:\n",
      "[('standardscaler-1', StandardScaler(copy=True, with_mean=True, with_std=True)), ('pca', PCA(copy=True, iterated_power='auto', n_components=2, random_state=None,\n",
      "  svd_solver='auto', tol=0.0, whiten=False)), ('standardscaler-2', StandardScaler(copy=True, with_mean=True, with_std=True))]\n"
     ]
    }
   ],
   "source": [
    "from sklearn.preprocessing import StandardScaler\n",
    "from sklearn.decomposition import PCA\n",
    "\n",
    "pipe = make_pipeline(StandardScaler(), PCA(n_components=2), StandardScaler())\n",
    "print(\"Pipeline steps:\\n{}\".format(pipe.steps))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "#### Accessing step attributes"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 21,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "components.shape: (2, 30)\n"
     ]
    }
   ],
   "source": [
    "# fit the pipeline defined before to the cancer dataset\n",
    "pipe.fit(cancer.data)\n",
    "# extract the first two principal components from the \"pca\" step\n",
    "components = pipe.named_steps[\"pca\"].components_\n",
    "print(\"components.shape: {}\".format(components.shape))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "#### Accessing Attributes in a Pipeline inside GridSearchCV"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 22,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "from sklearn.linear_model import LogisticRegression\n",
    "\n",
    "pipe = make_pipeline(StandardScaler(), LogisticRegression())"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 23,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "param_grid = {'logisticregression__C': [0.01, 0.1, 1, 10, 100]}"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 24,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "GridSearchCV(cv=5, error_score='raise-deprecating',\n",
       "       estimator=Pipeline(memory=None,\n",
       "     steps=[('standardscaler', StandardScaler(copy=True, with_mean=True, with_std=True)), ('logisticregression', LogisticRegression(C=1.0, class_weight=None, dual=False, fit_intercept=True,\n",
       "          intercept_scaling=1, max_iter=100, multi_class='warn',\n",
       "          n_jobs=None, penalty='l2', random_state=None, solver='warn',\n",
       "          tol=0.0001, verbose=0, warm_start=False))]),\n",
       "       iid='warn', n_jobs=None,\n",
       "       param_grid={'logisticregression__C': [0.01, 0.1, 1, 10, 100]},\n",
       "       pre_dispatch='2*n_jobs', refit=True, return_train_score=False,\n",
       "       scoring=None, verbose=0)"
      ]
     },
     "execution_count": 24,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "X_train, X_test, y_train, y_test = train_test_split(\n",
    "    cancer.data, cancer.target, random_state=4)\n",
    "grid = GridSearchCV(pipe, param_grid, cv=5)\n",
    "grid.fit(X_train, y_train)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 25,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Best estimator:\n",
      "Pipeline(memory=None,\n",
      "     steps=[('standardscaler', StandardScaler(copy=True, with_mean=True, with_std=True)), ('logisticregression', LogisticRegression(C=0.1, class_weight=None, dual=False, fit_intercept=True,\n",
      "          intercept_scaling=1, max_iter=100, multi_class='warn',\n",
      "          n_jobs=None, penalty='l2', random_state=None, solver='warn',\n",
      "          tol=0.0001, verbose=0, warm_start=False))])\n"
     ]
    }
   ],
   "source": [
    "print(\"Best estimator:\\n{}\".format(grid.best_estimator_))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 26,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Logistic regression step:\n",
      "LogisticRegression(C=0.1, class_weight=None, dual=False, fit_intercept=True,\n",
      "          intercept_scaling=1, max_iter=100, multi_class='warn',\n",
      "          n_jobs=None, penalty='l2', random_state=None, solver='warn',\n",
      "          tol=0.0001, verbose=0, warm_start=False)\n"
     ]
    }
   ],
   "source": [
    "print(\"Logistic regression step:\\n{}\".format(\n",
    "      grid.best_estimator_.named_steps[\"logisticregression\"]))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 27,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Logistic regression coefficients:\n",
      "[[-0.389 -0.375 -0.376 -0.396 -0.115  0.017 -0.355 -0.39  -0.058  0.209\n",
      "  -0.495 -0.004 -0.371 -0.383 -0.045  0.198  0.004 -0.049  0.21   0.224\n",
      "  -0.547 -0.525 -0.499 -0.515 -0.393 -0.123 -0.388 -0.417 -0.325 -0.139]]\n"
     ]
    }
   ],
   "source": [
    "print(\"Logistic regression coefficients:\\n{}\".format(\n",
    "      grid.best_estimator_.named_steps[\"logisticregression\"].coef_))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Grid-searching preprocessing steps and model parameters"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 28,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "from sklearn.datasets import load_boston\n",
    "boston = load_boston()\n",
    "X_train, X_test, y_train, y_test = train_test_split(boston.data, boston.target,\n",
    "                                                    random_state=0)\n",
    "\n",
    "from sklearn.preprocessing import PolynomialFeatures\n",
    "pipe = make_pipeline(\n",
    "    StandardScaler(),\n",
    "    PolynomialFeatures(),\n",
    "    Ridge())"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 29,
   "metadata": {
    "collapsed": true,
    "scrolled": true
   },
   "outputs": [],
   "source": [
    "param_grid = {'polynomialfeatures__degree': [1, 2, 3],\n",
    "              'ridge__alpha': [0.001, 0.01, 0.1, 1, 10, 100]}"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 30,
   "metadata": {
    "scrolled": true
   },
   "outputs": [
    {
     "data": {
      "text/plain": [
       "GridSearchCV(cv=5, error_score='raise-deprecating',\n",
       "       estimator=Pipeline(memory=None,\n",
       "     steps=[('standardscaler', StandardScaler(copy=True, with_mean=True, with_std=True)), ('polynomialfeatures', PolynomialFeatures(degree=2, include_bias=True, interaction_only=False,\n",
       "          order='C')), ('ridge', Ridge(alpha=1.0, copy_X=True, fit_intercept=True, max_iter=None,\n",
       "   normalize=False, random_state=None, solver='auto', tol=0.001))]),\n",
       "       iid='warn', n_jobs=-1,\n",
       "       param_grid={'polynomialfeatures__degree': [1, 2, 3], 'ridge__alpha': [0.001, 0.01, 0.1, 1, 10, 100]},\n",
       "       pre_dispatch='2*n_jobs', refit=True, return_train_score=False,\n",
       "       scoring=None, verbose=0)"
      ]
     },
     "execution_count": 30,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "grid = GridSearchCV(pipe, param_grid=param_grid, cv=5, n_jobs=-1)\n",
    "grid.fit(X_train, y_train)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 31,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "<matplotlib.collections.PolyCollection at 0x7fecac083ba8>"
      ]
     },
     "execution_count": 31,
     "metadata": {},
     "output_type": "execute_result"
    },
    {
     "data": {
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+I4cyBWzWOQ42cOW2YYwTo81Wd4f7RJCnk6mj4naQbPiDk8a+ytUVuE42++ol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\n",
      "image/png": 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DtnW/Mcd7kv3DydN58J3beXP9CyDw9oQPSnzDCASXW5ny6TdMveMKgoKEGct+YntiMlee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\n/SRlKrYAAAAASUVORK5CYII=\n",
      "text/plain": [
       "<Figure size 432x288 with 1 Axes>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "mglearn.tools.heatmap(grid.cv_results_['mean_test_score'].reshape(3, -1),\n",
    "                      xlabel=\"ridge__alpha\", ylabel=\"polynomialfeatures__degree\",\n",
    "                      xticklabels=param_grid['ridge__alpha'],\n",
    "                      yticklabels=param_grid['polynomialfeatures__degree'], vmin=0)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 32,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Best parameters: {'polynomialfeatures__degree': 2, 'ridge__alpha': 10}\n"
     ]
    }
   ],
   "source": [
    "print(\"Best parameters: {}\".format(grid.best_params_))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 33,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Test-set score: 0.77\n"
     ]
    }
   ],
   "source": [
    "print(\"Test-set score: {:.2f}\".format(grid.score(X_test, y_test)))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 34,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Score without poly features: 0.63\n"
     ]
    }
   ],
   "source": [
    "param_grid = {'ridge__alpha': [0.001, 0.01, 0.1, 1, 10, 100]}\n",
    "pipe = make_pipeline(StandardScaler(), Ridge())\n",
    "grid = GridSearchCV(pipe, param_grid, cv=5)\n",
    "grid.fit(X_train, y_train)\n",
    "print(\"Score without poly features: {:.2f}\".format(grid.score(X_test, y_test)))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 35,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "pipe = Pipeline([('preprocessing', StandardScaler()), ('classifier', SVC())])"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 36,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "from sklearn.ensemble import RandomForestClassifier\n",
    "\n",
    "param_grid = [\n",
    "    {'classifier': [SVC()], 'preprocessing': [StandardScaler(), None],\n",
    "     'classifier__gamma': [0.001, 0.01, 0.1, 1, 10, 100],\n",
    "     'classifier__C': [0.001, 0.01, 0.1, 1, 10, 100]},\n",
    "    {'classifier': [RandomForestClassifier(n_estimators=100)],\n",
    "     'preprocessing': [None], 'classifier__max_features': [1, 2, 3]}]"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 37,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Best params:\n",
      "{'classifier': SVC(C=10, cache_size=200, class_weight=None, coef0=0.0,\n",
      "  decision_function_shape='ovr', degree=3, gamma=0.01, kernel='rbf',\n",
      "  max_iter=-1, probability=False, random_state=None, shrinking=True,\n",
      "  tol=0.001, verbose=False), 'classifier__C': 10, 'classifier__gamma': 0.01, 'preprocessing': StandardScaler(copy=True, with_mean=True, with_std=True)}\n",
      "\n",
      "Best cross-validation score: 0.99\n",
      "Test-set score: 0.98\n"
     ]
    }
   ],
   "source": [
    "X_train, X_test, y_train, y_test = train_test_split(\n",
    "    cancer.data, cancer.target, random_state=0)\n",
    "\n",
    "grid = GridSearchCV(pipe, param_grid, cv=5)\n",
    "grid.fit(X_train, y_train)\n",
    "\n",
    "print(\"Best params:\\n{}\\n\".format(grid.best_params_))\n",
    "print(\"Best cross-validation score: {:.2f}\".format(grid.best_score_))\n",
    "print(\"Test-set score: {:.2f}\".format(grid.score(X_test, y_test)))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "#### Avoiding Redundant Computation"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 38,
   "metadata": {},
   "outputs": [],
   "source": [
    "pipe = Pipeline([('preprocessing', StandardScaler()), ('classifier', SVC())],\n",
    "                memory=\"cache_folder\")"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Summary and Outlook"
   ]
  }
 ],
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